Abstract: A microelectromechanical system (MEMS) for measuring angular rate of a carrier includes an angular rate sensor unit, microelectronic circuitry, and signal processing to obtain highly accurate, sensitive, stable angular rate measurements of the carrier under dynamic environments. Wherein, the angular rate sensor unit receives dither driver signals, capacitive pickoff excitation signals, and displacement restoring signals to output angle rate signals in response to the motion of the carrier and dither motion signals; the central circuitry receives the angle rate signals in response to the motion of the carrier and dither motion signals to output angular rate signals and digital low frequency inertial element displacement signals; a digital signal processing system analyzes digital low frequency inertial element displacement signals to feed back the dither drive signals to the angular rate sensor unit.

Abstract: The advisory speed meter is used to determine the advisory speed for a highway curve or to provide data for use in determining the advisory speed for a highway curve. The meter determines and records the maximum lateral horizontal acceleration experienced by a vehicle and occupants while traversing a highway curve. The meter has been extensively tested on rural curves and on entrance and exit and connecting ramps between all types of highways. The process for determining an advisory speed for a curve is described. The advisory speed meter provides accurate, reproducible data for use in determining advisory speeds for highway curves.

Abstract: A method and apparatus is provided which comprises a console including on/off push buttons and a liquid crystal display for providing messages to the user, a receiver unit, a transmitter unit and a circuit capable of calculating the speeds of the user during use as well as operate LEDs which display the status of the apparatus and flash in response to movement of the user wearing the device while he or she is running or walking.

Abstract: A process for forming a microelectromechanical system (MEMS) device by a deep reactive ion etching (DRIE) process during which a substrate overlying a cavity is etched to form trenches that breach the cavity to delineate suspended structures. In order to eliminate or at least reduce heat and/or charge accumulation that accelerates the DRIE etch rate of certain suspended structures, means are provided to electrically and/or thermally tie the suspended structures to each other and/or the surrounding bulk substrate. As a result, the process window is increased to allow slower-etching structures to be etched to completion without overetching the more rapidly-etched structures.

Abstract: A method is disclosed for evaluating shoes worn by a person for activity on ground, including the steps of determining forces of acceleration experienced by the person in a direction generally perpendicular to the ground, processing signals representative of the forces of acceleration over a time interval to determine energy experienced by the person while wearing the shoes, reporting the energy to the person, and evaluating the shoes based on the energy. Another method is disclosed for ratioing energy from two different locations on a person for determining energy experienced by the person during activity over ground.

Abstract: A sensor (100) for detecting a rotational movement or an angular acceleration comprises at least one heating element (108) and at least one sensor element (110, 112) and a fluid surrounding the heating element (108) and the sensor element (110, 112), the heating element (108) producing in the fluid a convection flow zone through which an isothermal field is defined. The heating element (108) and the sensor element (110, 112) are arranged with respect to an axis of rotation of the rotational movement or of the angular acceleration to be detected, in such a way that the sensor element (110, 112) is displaced relative to the isothermal field when a rotational movement or an angular acceleration takes place.

Abstract: A device for measuring a velocity and/or position of a body includes a magnetometer and a measurement unit. The magnetometer is configured to sense a magnetic flux to which the body is exposed. The measurement unit includes a sensor sensing one of an acceleration and a velocity of the body. The measurement unit also includes a processor coupled to the magnetometer and to the measurement unit and configured to determine one on a velocity value and a position value for the body based on the sensed magnetic flux and based or one of the sensed acceleration and the sensed velocity of the body.

Abstract: A sensor is provided for measuring the speed of a moving sports object, particularly an object being shot or launched, for example, from a gun, bow or other implement, such as a bullet or paint ball being shot from a gun or an arrow being shot from a bow. The sensor is operable over a short range and is preferably mounted in close proximity to the path of the moving object. The sensor of the preferred embodiment utilizes CW Doppler radar in the form of a microwave radio frequency transmitter and receiver that has a single-transistor integrated antenna/oscillator. A simple, low cost unit having a low radiation and low energy consumption transmitter, receiver and signal processor, is provided. In use, the unit is situated so as to place a transmit/receive antenna close to or in the line of motion of the object. Such an antenna, so positioned, may be separated from the unit and connected through a transmission line.

Abstract: Inertial trackers have been successfully applied to a wide range of head mounted display (HMD) applications including virtual environment training, VR gaming and even fixed-base vehicle simulation, in which they have gained widespread acceptance due to their superior resolution and low latency. Until now, inertial trackers have not been used in applications which require tracking motion relative to a moving platform, such as motion-base simulators, virtual environment trainers deployed on board ships, and live vehicular applications including helmet-mounted cueing systems and enhanced vision or situational awareness displays. to the invention enables the use of inertial head-tracking systems on-board moving platforms by computing the motion of a “tracking” Inertial Measurement Unit (IMU) mounted on the HMD relative to a “reference” IMU rigidly attached to the moving platform.

Abstract: A method and apparatus is disclosed for monitoring an angular displacement, such as angle position and the direction of displacement. The method and apparatus includes at least one resonator placed in proximity to a electrodynamic profile and exciting within said resonator an alternating electromagnetic field. The electromagnetic field should be at a frequency at which the electromagnetic field contacts the electrodynamic profile and then variations of the electromagnetic field parameters are measured for the resonator caused by rotating the electrodynamic profile. Excitation of the resonator is by an electromagnetic field in the form of at least one slowed electromagnetic wave having a suitable energy distribution of the electric and magnetic fields for measuring the electromagnetic field parameters.

Abstract: The present invention provides an accelerometer which is more manufacturable, higher performance, and more survivable. This invention is particularly applicable for ultra-low-g sensors and ultra-high-g sensors.

Abstract: A capacitive semiconductor acceleration sensor capable of efficiently performing a self-diagnostic procedure without having to provide any separate electrodes for self-diagnosis purposes. The acceleration sensor includes a beam portion that is deformable upon application of acceleration thereto in a direction at right angles to the elongate direction thereof to thereby exhibit a spring function. The sensor also includes a movable electrode and fixed electrodes which are integrally formed with the beam portion. The sensor is operable to detect the acceleration while applying between the movable electrode and fixed electrodes a periodically changeable signal to derive an output voltage variable in potential with a differential capacitance change of capacitors between the both electrodes.

Abstract: The rotational position of a shaft (10) with respect to a sleeve (12) is determined by using a sensor (14) rotating with the shaft (10) to detect an earth vector such as magnetic or gravitational field, using a coil (18) on the shaft in conjunction with a plurality of ferromagnetic elements (16) on the sleeve to monitor relative rotation, and calculating the rotational position from these parameters. Applicable to downhole use, particularly gamma ray measurements.

Abstract: The force plate data acquisition system measures, processes and analyzes the vertical reaction forces and various weight shifts between the ground and a golfer's feet during a swing. Plates are supported on cantilever beams through ball bearings. The beams are attached to a rigid frame and instrumented with strain gauges configured in a Wheatstone half bridge arrangement. An eight-channel strain gauge data acquisition board in a central processing unit records strain information. Data collection can be independent or controlled by a motion analysis system to provide synchronous foot force and video information. A set of BASIC programs collect strain readings from the foot plates, process the data, relate beam deflections to applied load and plots reaction force and weight shift information to the computer screen. Graphs produced are total vertical reaction force, foot-to-foot weight shift, heel-to-toe weight shift, outside-to-instep weight shift and the speeds of each.

Abstract: A method and apparatus is disclosed for monitoring an angular displacement, such as angle position and the direction of displacement. The method and apparatus includes at least one resonator placed in proximity to a electrodynamic profile and exciting within said resonator an alternating electromagnetic field. The electromagnetic field should be at a frequency at which the electromagnetic field contacts the electrodynamic profile and then variations of the electromagnetic field parameters are measured for the resonator caused by rotating the electrodynamic profile. Excitation of the resonator is by an electromagnetic field in the form of at least one slowed electromagnetic wave having a suitable energy distribution of the electric and magnetic fields for measuring the electromagnetic field parameters.

Abstract: In order to make an operating device easier to operate and to make final positions more convenient, it includes

Abstract: The structure is arranged such that between the supporting portion 1e of the casing 1 and the collar portion 2s of the rotor 2, there is displaced the second elastic member 4 for pressing the collar portion in the axial direction of the driving shaft 10, that the pressing force of the second elastic member is greater than the frictional force to be generated between the driving shaft and the first elastic member 5 when the driving shaft moves in the back-and-forth direction of the axial direction, and that the rotor is prevented from moving forward by the pressing force of the second elastic member when the driving shaft moves in the forward direction to go out of the rotor 2.

Abstract: The rotor 2 has an engaging portion 2b and a shaft portion 2c provided at the rotation-central portion of the rotor, a casing 7 has a supporting portion 8 provided at a position opposite to a shaft portion, the shaft portion is formed with a recess 2d, the supporting portion is formed with a conical portion 8c, a conical portion is disposed within the recess, the shaft portion is supported by a conical portion fitted in the recess, and the conical portion is used as a fulcrum, whereby it is made difficult to generate large shavings.

Abstract: In a rotary sensor of this invention, an angle detection member is composed of sliding pieces having contact portions on a rotation body side and a conductive pattern formed on a substrate arranged on a side opposite to the sliding pieces, the operation shaft has a flat projection portion which extends in a perpendicular direction from the center of rotation at the end, an groove portion extends in a direction perpendicular to the axial direction of the operation shaft, the projection portion is mated with the groove portion, and the contact portions of the sliding pieces are located at positions in a direction substantially perpendicular to the groove direction of the groove portion.

Abstract: A sensor is provided for measuring the speed of a moving sports object, for example, a ball such as a baseball or softball. The sensor is operable over a short range and is preferably mounted in close proximity to the path of the moving object. For measuring the speed of a ball, the sensor is preferably mounted on or in a ball glove or is otherwise mounted on the forearm of a person catching or otherwise receiving or interacting with the ball, for example, by wearing the sensor on such person's wrist. The sensor measures the speed, for example, of a ball about to be caught and displays the speed of the ball to the catching player. The sensor of the preferred embodiment utilizes CW Doppler radar in the form of a microwave radio frequency transmitter and receiver that has a single-transistor integrated antenna/oscillator. A simple, low cost unit having a low radiation and low energy consumption transmitter, receiver and signal processor, is provided.

Abstract: A device comprised of at least a pair of accelerometers and a tilt sensor mounted in fixed relation to a datum plane defining surface (sole of a shoe) may be used for extracting kinematic variables including linear and rotational acceleration, velocity and position. These variables may be resolved into a selected direction thereby permitting both relative and absolute kinematic quantities to be determined. The acceleration is determined using a small cluster of two mutually perpendicular accelerometers mounted on a shoe. Angular orientation of the foot may be determined by double integration of the foot's angular acceleration (which requires a third accelerometer substantially parallel to one of the two orthogonal accelerometers). The two orthogonal accelerations are then resolved into a net horizontal acceleration or other selected direction which may be integrated to find the foot velocity in the selected direction. The average of the foot velocity corresponds to the subject's gait speed.

Abstract: A method for regulating a system for controlling the stability of a vehicle based on the forces exerted at the center of each wheel of the vehicle. Since, the actions of the driver, whether steering, accelerating or braking, are reflected by forces (variations in forces) transmitted by the tires to the ground, it is proposed to control the operating means of the vehicle (active anti-roll system, engine torque, braking torque or active steering) by force expectations derived from the actions of the driver. Depending on the speed of travel of the vehicle and the angle to the steering wheel (steering wheel velocity and steering wheel acceleration), the method expresses the inputs of the driver in terms of forces. If the actual forces that are measured do not correspond to the forces desired by the driver, the active system compensates for this difference by acting on the distributions of forces in the vehicle chassis.

Abstract: An electronic piano has only one set of analog key sensors/shutter plates under the keyboard, and an electronic sound generating system processes pieces of data information from the analog key sensors through different computer programs for an initial-touch and an after-touch so as to achieve a wide variety of sound control without increase of electric components.

Abstract: When a cavity accommodating movable portion of an external force detecting sensor has a narrow structure, the external force detecting sensor is influenced by air damping, and therefore the cavity should have a wide structure. However, when a top surface and bottom surface of the cavity are positioned too high, the range of vertical movement of the movable portion is increased, and when an external impact force is applied to the external force detecting sensor, a movable interdigitated electrode rides on fixed interdigitated electrodes and stays there, thus the external force detecting sensor is rendered inoperable.

Abstract: A technique for generating motion vectors in video and film signal processing uses constraint equation based motion estimation. Simplifications of the processing and hardware are made possible by generating motion vectors based on the normalized constraint equation. The temporal and spatial image gradients are calculated using temporal and spatial differentiators (16, 17, 18). An angle (&thgr;) corresponding to the orientation of the spatial image gradient vector and the motion speed (vn) in the direction of the vector are calculated using apparatus including a rectangular to polar coordinate converter (32). &thgr; and vn are the parameters of the normalized constraint equation.

Abstract: An accelerometer has a substrate with a cavity therein, a heater extending over the cavity, and a pair of temperature sensitive elements each spaced apart from the heater a distance of 75-400 microns also extending over the cavity. On passing an electrical current through the heater a symmetrical temperature distribution is set up on both sides of the heater. On acceleration, this distribution moves and by measuring the temperature as sensed by the pair of temperature sensitive elements the acceleration that caused the shift can be calculated.

Abstract: The invention relates to a device for determining velocity and optionally distance traveled by measuring successive stepping movements of an object, which device comprises:

Abstract: The invention relates to an acceleration monitoring method for a longitudinal dynamics open-loop or closed-loop controller in motor vehicles, in which an actual acceleration value is compared with a desired acceleration value, a defective operating condition of the motor vehicle being detected when the actual acceleration value is situated outside an error corridor including the desired acceleration value.

Abstract: Method for the determination for an actual speed of a movable displacement element wherein

Abstract: A rotary sensor having a rotator to which rotation from outside is transmitted, a housing on which the rotator is rotatably supported, and an angle sensing member for detecting the angle of rotation to the rotator. At least two, first and second torsion coil springs which constantly turn the rotator in one direction towards the housing are disposed between the rotator and the housing.

Abstract: A wrist watch which instantaneously displays the velocity of the service ball in kilometers or miles for its manual or electronic display during competitions.

Abstract: An angular rate producer is provided for measuring vehicle angular rate, wherein high performance dither drive signal generation and angular sensing signal extracting means are provided for hands-on vibrating type angular rate detecting units, including tuning forks and vibrating strings to obtain highly accurate angular rate signals.

Abstract: An exemplary embodiment of the invention is a method for determining a reference speed approximating a ground speed of a vehicle having a plurality of axles. The method includes selecting a minimum vehicle speed based on one of the axles having a minimum speed. An axle having a lowest amount of creep is determined and designated as a speed axle. A derived speed from the speed axle is obtained and compensated by subtracting a creep value from the derived speed to obtain a corrected speed. Operating dynamics for the vehicle are determined and a reference speed is determined based on the minimum vehicle speed or the corrected speed in response to the operating dynamics.

Abstract: A device that measures the distance traveled, speed, and height jumped of a person while running or walking. Accelerometers and rotational sensors are placed in the sole of one shoe along with an electronic circuit that performs mathematical calculations to determine the distance and height of each step. A radio frequency transmitter sends the distance and height information to a wristwatch or other central receiving unit. A radio frequency receiver in the wristwatch or other unit is coupled to a microprocessor that calculates an output speed based upon step-distance and elapsed time, and the distance traveled of the runner from the sum of all previous step distances. The output of the microprocessor is coupled to a display that shows the distance traveled, speed, or height jumped of the runner or walker.

Abstract: An acceleration detection device for detecting an acceleration applied in a certain direction based on detection signals corresponding to the acceleration, is provided with a waveform detection part detecting waveforms of the detection signals and an acceleration determination part determining whether to make valid or invalid the acceleration based on the waveforms detected in the waveform detection part.

Abstract: A method and apparatus for enclosing a sensing device, such as an accelerometer, for reducing outside forces and strains on the sensing device. The cover includes two parts that bond to each other thereby forming a clamshell-type cover. The sensing device can float within the cover, is bonded to bonding points on one of the cover parts or is held in place by a pressure fit of the two cover parts on the sensing device.

Abstract: A crash sensor comprising a magnetic field sensor with means for concentrating magnetic flux from the magnet, wherein the magnetic field sensor detects a change in magnetic field strength as the sensing mass moves causing a corresponding change in output voltage or current from the magnetic field sensor. The magnetic field sensor is used for determining crash severity for timely deployment of an occupant restraint system.

Abstract: The invention is based on a system for changing a signal representing rotational motion in a motor vehicle with first means for generating a first signal representing the rotational motion and a second means for generating at least one second signal representing additional information (direction of rotation, air gap, and/or brake lining wear). In addition, a third means is provided, by means of which the first signal (rotational speed signal) can be changed as a function of the second signal (direction of rotation, air gap, and/or brake lining wear). The essence of the invention is that the first means is designed in such a way that the first signal (rotational speed signal) assumes at least two first current values and/or two first voltage values.

Abstract: A vehicular deceleration indication system is provided including an accelerometer situated within a vehicle and adapted to detect a deceleration of the vehicle from an amount of change in momentum thereof with respect to the force of gravity. A lamp assembly includes a plurality lamps each adapted to illuminate upon the actuation thereof. Also included is a control mechanism adapted to actuate the lamps in a predetermined sequence as the detected deceleration increases.

Abstract: A support shaft is non-rotationally inserted into bearing plates of support member. Accelerator rotor is attached to support shaft and can rotate, and a driver rotates it by means of the actuation of the accelerator pedal. Sensor rotor of accelerator opening sensor is attached to support shaft and can rotate. Protruding portion of sensor rotor is engaged with recess portion formed in accelerator rotor. Because plate spring inserted into recess portion sandwiches protruding portion in a direction opposite of the direction of rotation, with respect to sensor rotor, shift or deviation in the direction of rotation of accelerator rotor is prevented. Further, with respect to sensor rotor, accelerator rotor can slide in contact with plate spring while sliding in the direction of support shaft and the radial direction of accelerator rotor.

Abstract: A device for monitoring an acceleration sensor located in a vehicle and detecting an acceleration quantity that describes an acceleration acting upon the vehicle. The device includes an averaging device that is used to generate a mean value of the acceleration quantity for a definable period of time. The mean value is largely independent of driving maneuvers performed with the vehicle. The device also includes a monitoring device in which a comparison between the mean value of the acceleration quantity and a threshold value is carried out to monitor the acceleration sensor.

Abstract: A motor vehicle speed monitoring system is disclosed as a device to acquire and record the top speed obtained by a motor vehicle during each operating session. Such monitoring allows for the security that one's children, employees, valets, mechanics, or others entrusted with the care of a vehicle have not operated it above acceptable speed limits. The system digitally records the top speed of the vehicle every time it is started and keeps a log of the speed and the time and dates at which it occurred. The owner or authorized user may review the internal log by entering a password key into a keypad.

Abstract: A process for estimating the speed of a vehicle or of an assemblage of vehicles, based on measuring the speeds of the mechanically independent wheels, while all the wheels are slipping with respect to the rolling surface, the process includes a step using mechanical and kinematic information characteristic of the vehicle or vehicles.

Abstract: In a method of detecting covered and uncovered parts in an image to be interpolated between neighboring previous (I) and next (III) input images, backward motion vectors from the next input image to the previous input image, and having corresponding backward estimation errors, and forward motion vectors from the previous input image to the next input image, and having corresponding forward estimation errors, are determined, uncovered and covered parts are detected in the neighboring previous and next input images, respectively, in the thus detected uncovered parts, uncovered parts in the image to be interpolated are detected by determining second backward estimation errors by comparing both neighboring previous and next input images when partially shifted over the backward motion vectors to a temporal location of said image to be interpolated, and by comparing the second backward estimation errors to a threshold, and in the thus detected covered parts, covered parts in the image to be interpolated are detecte

Abstract: In an external measuring apparatus, a past zero signal value V0 is first read out. A subtracted value obtained by subtracting the zero signal value V0 from a read signal value Vin from an angular velocity detector is compared with a preset first threshold value &Dgr;V1. If no angular velocity is being applied, then the read signal value Vin is updated and set to the zero signal value V0 in which a drift component is canceled. In addition, the subtracted value obtained by subtracting the zero signal value V0 from the read signal value Vin is further compared with a second threshold value &Dgr;V2 so as to perform the zero adjustment of the subtracted value. This makes it possible to eliminate the drift component and the random noise component from the detection signal, enabling accurate angular velocity to be obtained.

Abstract: A device (1) for measuring the strike velocity of a game ball struck by a striking element, particularly a tennis racket (2), said device being provided directly on the racket. The device comprises at least one measuring sensor mounted on the strings (4) of the racket (2) and arranged to output signals for the strength of the vibrations generated by the ball, means for processing said signals using microprocessors that analyse the signals and determine a measured value of the ball velocity, and means (6) for displaying said value. The processing means comprise a calibrating unit for automatically correcting the measured value depending on at least the features of the racket and the ball in order to provide a highly accurate and reliable result. Said measuring device is miniaturised and inexpensive and fits in a small housing (3) mounted on the racket (2) to enable the player to read the velocity value directly.

Abstract: A system for superimposing data in which data are represented by a constituted analog signal. The analog signal periodically has two presettable levels (high, low), with the data being represented with the time duration of the analog signal. The presettable levels (high, low) of the analog signal can be realized in this context by two different current or voltage values. Other data are present in the form of a constituted digital signal which represents the data in the form of a digital data word. In order to constitute a superimposed signal, a digital signal is superimposed on the analog signal.

Abstract: A rotational speed sensing device is disclosed which comprises a reference member adapted to be rotated at a reference speed, a rotational device coaxial with the reference member, the rotational device adapted to be rotated at a speed, a sensor associated with either the reference member or the rotational device and being rotated, the sensor for determining a speed differential between the reference member and the rotational device, and a controller electrically connected to the reference member and the sensor, the controller for receiving signals from the reference member and the sensor indicative of the reference speed and the speed differential, the controller for determining the speed of rotation of the rotational device based upon the difference between the reference speed and the speed differential.

Abstract: A wheel speed sensor for wheels powered through a transaxle is mounted on the transaxle case. A preferred pickup arrangement senses the rotation of a CV joint positioned adjacent the transaxle case.

Abstract: A sensor is provided for measuring the speed of a moving sports object, for example a ball such as a baseball or softball. The sensor is operable over a short range and is preferably mounted in close proximity to the path of the moving object. For measuring the speed of a ball, the sensor is preferably mounted on or in a ball glove or is otherwise mounted on the forearm of a person catching or otherwise receiving or interacting with the ball, for example, by wearing the sensor on such person's wrist. The sensor measures the speed of a ball about to be caught, for example, and displays the speed of the ball to the catching player. The sensor of the preferred embodiment utilizes CW Doppler radar in the form of a microwave radio frequency transmitter and receiver that has a single-transistor integrated antenna/oscillator. A simple, low cost unit having a low radiation and low energy consumption transmitter, receiver and signal processor, is provided.